The Nup98 GLFG domain also functions in pore targeting through binding to Nup93, positioning the GLFG domain in the center of the NPC and supporting a role for this nucleoporin in the permeability barrier.

Here, we take advantage of the hypomorphicity of RNAi systems and use a combination of protein binding and rescue assays to map the interaction sites of two neighbouring NPC proteins Nup93 and Nup53 on Nup155, and to define the requirements of these interactions in INM protein organization.

Surprisingly, many of these nucleoporins, including Sec13, Nup75, Nup93, and Nup205, are scaffold nucleoporins considered important for the overall integrity of the nuclear pore complex (NPC) but not known to have cargo-specific functions.

We investigated the relationship between the mammalian nuclear pore and the human genome by generating high-resolution, chromosome-wide binding maps of human nucleoporin 93 (Nup93) in the presence and absence of a potent histone deacetylase inhibitor (HDACI).